Complete skin reconstruction is a hierarchically physiological assembly involving epidermis,
dermis, vasculature, innervation, hair follicles, and sweat glands. Despite various wound …

Chronic wounds affect over 6.5 million Americans and are notoriously difficult to treat.
Suboptimal oxygenation of the wound bed is one of the most critical and treatable wound …

Artificial electronic skin (e-skin) that imitates the complex functions of human skin is able to
transduce external stimuli into electronic signals. However, it remains challenging to …

While rapid wound healing is essential yet challenging, there is also an unmet need for
functional restoration of sensation. Inspired by natural skin, an ultra‐conformable, adhesive …

Wound healing on skin involves cell migration and proliferation in response to endogenous
electric current. External electrical stimulation by electrical equipment is used to promote …

Skin injuries across the body continue to disrupt everyday life for millions of patients and
result in prolonged hospital stays, infection, and death. Advances in wound healing devices …

Health care monitoring is an extremely important aspect of human life that can be
accomplished using wearable skin-patchable sensors. Upon interfacing with the skin or …

The endogenous electric field (EF) generated by transepithelial potential difference plays a
decisive role in wound reepithelialization. For patients with large or chronic wounds …

Advanced wound care technologies need to evolve in response to the growing burden of
chronic wounds on national healthcare budgets and the debilitating impact chronic wounds …

Flexible bioelectronics for biomedical applications requires a stretchable, conductive, self-
healable, and biocompatible material that can be obtained by cost-effective chemicals and …